from pandac.PandaModules import * from direct.showbase.DirectObject import DirectObject from direct.interval.IntervalGlobal import * from direct.distributed.ClockDelta import globalClockDelta from direct.distributed.ClockDelta import NetworkTimePrecision import random from direct.task.Task import Task from direct.directnotify.DirectNotifyGlobal import directNotify from direct.fsm import ClassicFSM from direct.fsm import State from direct.directutil import Mopath from toontown.toonbase import ToontownGlobals from direct.actor import Actor class Train(DirectObject): notify = directNotify.newCategory('Train') nameId = 0 Sfx_TrainPass = 'phase_10/audio/sfx/CBHQ_TRAIN_pass.mp3' Sfx_TrainStopStart = 'phase_10/audio/sfx/CBHQ_TRAIN_stopstart.mp3' LocomotiveFile = 'phase_10/models/cogHQ/CashBotLocomotive' CarFiles = ['phase_10/models/cogHQ/CashBotBoxCar', 'phase_10/models/cogHQ/CashBotTankCar', 'phase_10/models/cogHQ/CashBotFlatCar'] CarLength = 88 MarkDelta = 15 def __init__(self, trackStartPos, trackEndPos, trackNum, numTotalTracks): self.trackStartPos = trackStartPos self.trackEndPos = trackEndPos self.numCars = len(self.CarFiles) self.locomotive = loader.loadModel(self.LocomotiveFile) self.cars = [] self.trainPassingSfx = base.loadSfx(self.Sfx_TrainPass) self.trainStopStartSfx = base.loadSfx(self.Sfx_TrainStopStart) self.trainId = trackNum self.bFlipped = False if trackStartPos[0] < trackEndPos[0]: self.locomotive.setHpr(180, 0, 0) self.bFlipped = True self.collNodeName = 'CollNode-%s' % self.trainId self.firstMark = self.MarkDelta / numTotalTracks * trackNum currentTime = self.__networkTimeInSeconds() currentRun = int((currentTime - self.firstMark) / self.MarkDelta) self.lastMark = currentRun * self.MarkDelta + self.firstMark self.doNextRun(True) self.hide() def hide(self): if self.locomotive: self.locomotive.reparentTo(hidden) def show(self): if self.locomotive: self.locomotive.reparentTo(render) def __networkTimeInSeconds(self): time = globalClockDelta.getRealNetworkTime(bits=32) / NetworkTimePrecision return time def doNextRun(self, bFirstRun = False): if self.locomotive: if bFirstRun: nextMark = self.lastMark else: nextMark = self.lastMark + self.MarkDelta self.nextRun.finish() self.notify.debug('Next mark %s' % nextMark) currentTime = self.__networkTimeInSeconds() timeTillNextMark = nextMark - currentTime self.notify.debug('Time diff %s' % timeTillNextMark) runNumber = int((nextMark - self.firstMark) / self.MarkDelta) S = random.getstate() random.seed(self.trainId + runNumber) self.nextRun = self.__getNextRun() random.setstate(S) self.__startNextRun(timeTillNextMark) self.lastMark = nextMark return Task.done def __startNextRun(self, timeTillMark): if self.locomotive: self.__disableCollisions() if timeTillMark > 0: self.nextRun = Sequence(Wait(timeTillMark), self.nextRun) self.nextRun.start() else: self.nextRun.start(-1 * timeTillMark) self.__enableCollisions() return Task.done def __cleanupCars(self): self.__disableCollisions() for car in self.cars: car.removeNode() self.cars = [] def __getCars(self): self.__cleanupCars() numCarsThisRun = random.randrange(1, 10) for nCar in range(numCarsThisRun): carType = random.randrange(0, self.numCars) car = loader.loadModel(self.CarFiles[carType]) car.reparentTo(self.locomotive) car.setPos(self.CarLength * (nCar + 1), 0, 0) self.cars.append(car) def __showStart(self): self.notify.debug('Starting train %s at %s.' % (self.trainId, self.__networkTimeInSeconds())) def __getNextRun(self): self.__getCars() trainShouldStop = random.randrange(0, 4) nextRun = Sequence(Func(self.__showStart)) if trainShouldStop is 0: waitTime = 3 totalTime = random.randrange(4, (self.MarkDelta - waitTime) / 2) sfxStopTime = 4.3 halfway = (self.trackStartPos + self.trackEndPos) / 2 halfway.setX(150) nextRun.append(Parallel(Sequence(Wait(totalTime - sfxStopTime), SoundInterval(self.trainStopStartSfx, volume=0.5)), Sequence(LerpPosInterval(self.locomotive, totalTime, halfway, self.trackStartPos, blendType='easeInOut'), WaitInterval(waitTime), LerpPosInterval(self.locomotive, totalTime, self.trackEndPos, halfway, blendType='easeIn')))) else: totalTime = random.randrange(6, self.MarkDelta - 1) sfxTime = 7 sfxStartTime = totalTime / 2 - sfxTime / 2 if self.bFlipped: sfxStartTime -= 1 else: sfxStartTime += 1 nextRun.append(Parallel(Sequence(Wait(sfxStartTime), SoundInterval(self.trainPassingSfx, volume=0.5)), LerpPosInterval(self.locomotive, totalTime, self.trackEndPos, self.trackStartPos))) nextRun.append(Func(self.doNextRun)) return nextRun def delete(self): self.__cleanupCars() self.locomotive.removeNode() self.locomotive = None self.nextRun.finish() self.nextRun = None del self.trainPassingSfx del self.trainStopStartSfx return def uniqueName(self, name): Train.nameId += 1 return name + '-%d' % Train.nameId def __enableCollisions(self): allColls = self.locomotive.findAllMatches('**/+CollisionNode') for car in self.cars: carColls = car.findAllMatches('**/+CollisionNode') allColls += carColls for collNode in allColls: collNode.setName(self.collNodeName) collNode.setCollideMask(ToontownGlobals.WallBitmask) self.accept('enter' + self.collNodeName, self.__handleCollisionSphereEnter) def __disableCollisions(self): self.ignore('enter' + self.collNodeName) def __handleCollisionSphereEnter(self, collEntry = None): base.localAvatar.b_squish(10)